Polyclonal B cell activation by the Eta-1 cytokine and the development of systemic autoimmune disease.

Abstract

Studies of systemic autoimmune disease have led to the view that initiation and progression of the disease process reflects chronic and sustained B cell activation by unidentified polyclonal activating agents. In earlier studies, we found that T cells from MRL/1 mice, which develop murine lupus, express very high levels of a newly defined T cell cytokine, Eta-1. Inasmuch as chronic and sustained B cell stimulation by T cells is a cardinal feature of MRL/1 disease, we determined the effects of this cytokine on Ig production by B cells. We show that both recombinant and biochemically purified natural Eta-1 stimulate IgM and IgG production by mixtures of B cells and macrophages from the autoimmune MRL/l strain. Additional studies suggest that optimal Ig production by Eta-1 may require macrophages and reflect enhanced Ig production by large B cells. These findings support the view that elevated levels of endogenous Eta-1 may cause chronic and sustained polyclonal B cell activation that leads to autoimmune disease in this murine model.